The company specializes in nanotechnologies and is concentrated in three main areas: scientific research, construction and production of nanoparticles condition detectors. Their products are intended for production process controls, scientific and technological researches.

Infinitesima specialises in developing innovative accessories and advanced products based on scanning probe microscopy methods and techniques. These tools enable the visualisation and characterisation surfaces at a nanometre level.

INNOWEP GmbH is specialized in manufacturing of measuring and testing equipment. The major competences of the company include measuring of very complex nano-, micro- and macrogeometries, abrasion, scratch resistance, wear, haptics, microtribology, microfriction, continuous elasticity, roughness, topography, structure and dimension.

The company developed a Benchtop Scanning Electron Microscopes that is the size of an old computer. This device doesn?t require any maintenance and and very easily installed and is able to speed up the researches in the field of nanotechnology. It enables researchers to take high quality images at a very high magnification in less than 5 minutes.

RAMEM, Spanish SME founded in 1958, has been working in the field of scientific instrumentation for the last 20 years. In the last 10 years they have entered the field of Aerosol and Volatile Detection Technology through their brand IONER, developing proprietary technology. The result of this effort is a complete line of equipment to classify and detect ions, volatiles, nanometric and sub micrometric particles.

KP Technology is an award-winning company that designs and manufactures Kelvin Probe systems for work function and surface potential measurements. The company supplies state-of-the-art equipment and consultancy services to innovative companies and research institutes throughout the world.

The company develops innovative measurement and control technologies for researchers studying the physical properties of metals and ceramics at very low temperatures. Typical materials that can be measured include nanoscale electronics, quantum wires and dots, organic and dilute magnetic semiconductors, superconductors, and spintronics devices.